Intestinal sensitivity testing by transmucosal electrical nerve stimulation: stimulus parameters to induce conscious perception.

Intestinal sensitivity can be tested using transmucosal electrical nerve stimulation. The aim of this study was to establish the stimulus characteristics that determine perception. In six healthy subjects constant current electrical stimuli were applied via an intrajejunal bipolar electrode while measuring perception. Intensity-response tests with stimuli trains of various frequencies (5 and 100 Hz) and pulse durations (50 and 1000 mus) were performed. All stimuli within the broad range tested induced similar-type abdominal sensations, but the intensity of the stimuli to produce perception differed depending on both pulse duration and frequency. A 20-fold increase in pulse duration decreased the intensity of perceived stimuli by a factor of 0.34 +/- 0.04 (P < 0.05); a similar increase in pulse frequency decreased the intensity by a 0.63 +/- 0.07 factor (P < 0.05). When the frequency and duration concomitantly increased, the stimulus intensity decreased by the product of both factors (0.22 +/- 0.04). Transmucosal electrical nerve stimulation of the intestine induces perception within a broad range of stimuli. However, the intensity of the stimuli required to activate sensory pathways is primarily weighted by the duration rather than by the frequency of the pulses.

Modification of small bowel mechanosensitivity by intestinal fat.

BACKGROUND: Lipids may exacerbate symptoms induced by gut stimuli. AIM: To determine the mechanism whereby fat exerts this effect. SUBJECTS: Twenty four healthy subjects were studied during fasting. METHODS: We measured perception (0-6 scale) in response to jejunal balloon distension and transmucosal electrical nerve stimulation; phasic stimuli (one minute) were randomly applied at five minute intervals during intestinal infusion (2 ml/min) of saline and then Intralipid 2 kcal/min (high fat; n=8 subjects), Intralipid 0.5 kcal/min (low fat; n=8), or saline (n=8). RESULTS: Intestinal lipids increased the perception of jejunal distension regardless of concentration (by 53% with high fat, 49% with low fat, and 17% with saline; p<0.05 for both fat loads). This effect could not be attributed to changes in intestinal compliance as intraballoon pressures remained unchanged during lipid infusion (2% change; NS). Sensitisation induced by lipids seemed to be specifically related to intestinal mechanoreceptors because electrical stimulation, which non-specifically activates gut afferents, was perceived equally during saline and lipid administration (10%, 11%, and 15% change during high fat, low fat, and saline, respectively; NS). CONCLUSION: Physiological amounts of lipids heighten intestinal sensitivity by modulating intestinal mechanoreceptor response.

Attention and distraction: effects on gut perception.

BACKGROUND & AIMS: Paying attention to the gut may magnify perception of abdominal symptoms, but the actual influence of attention by anticipatory knowledge and distraction on gut perception remains poorly defined. The aim of this study was to determine whether mental activity, attention vs. distraction, affects intestinal perception and whether mental effects are synergistic with other modulatory mechanisms. METHODS: Perception of 1-minute intestinal balloon distentions applied at 7-13-minute random intervals was measured in healthy subjects. First, distentions were tested during attention by anticipatory knowledge and during distraction (n = 8). Because somatic transcutaneous electrical nerve stimulation (TENS) reduces gut perception, distentions were then tested during attention alone, attention plus somatic TENS, and during distraction plus TENS (n = 8). RESULTS: Perception of intestinal distentions was higher during attention than during distraction (3.3 +/- 0.2 vs. 2.9 +/- 0.1 [mean +/- SEM]; P < 0.05). The area of somatic projection was greater during attention (P < 0.05). Intestinal compliance and oral reflex relaxation remained unchanged. During application of somatic TENS, perception of intestinal distention was higher during attention than distraction (2.4 +/- 0.3 vs. 1.7 +/- 0.2; P < 0.05). However, TENS did not alter the perception score during attention. CONCLUSIONS: Mental activity may modulate gut perception and overrides the effects of somatic TENS on gut perception.

Selective dysfunction of mechanosensitive intestinal afferents in irritable bowel syndrome.

BACKGROUND/AIMS: Experimental studies have shown gut hypersensitivity in irritable bowel syndrome. The aim of this study was to determine whether heightened perception of gut distention in irritable bowel syndrome is related to either decreased gut compliance, altered mechanosensitive afferents, or nonspecific sensory dysfunction. METHODS: In 17 patients with irritable bowel syndrome and 15 healthy controls, stimulus-related perception of (1) intestinal balloon distentions, (2) transmucosal electrical nerve stimulation (15 Hz, 100 microseconds), and (3) somatic transcutaneous electrical nerve stimulation (100 Hz, 100 microseconds) was measured. Individual stimuli of 1-minute duration were randomly applied at 5-minute intervals. RESULTS: Patients tolerated smaller intestinal volumes than controls (33 +/- 3 mL vs. 43 +/- 4 mL, respectively; mean +/- SE; P < 0.05), whereas both intestinal compliance and perception of transmucosal electrical nerve stimulation were normal (patients tolerated 58 +/- 5 mA and healthy subjects tolerated 69 +/- 5 mA). Interestingly, patients perceived both stimuli more diffusely than controls; 48% +/- 9% distentions and 52% +/- 9% electrical stimuli were perceived over more than one abdominal region vs. 21% +/- 9% and 18% +/- 6%, respectively, in controls (P < 0.05 for both). In contrast to gut distentions, patients showed higher tolerance of somatic stimuli than controls (68 +/- 7 mA vs. 42 +/- 6 mA, respectively; P < 0.05). CONCLUSIONS: Patients with irritable bowel syndrome show selective hypersensitivity of intestinal mechanosensitive pathways associated with a nonspecific, probably central dysfunction of viscerosomatic referral.

Symptomatic responses to stimulation of sensory pathways in the jejunum.

We hypothesized that intestinal afferent pathways inducing perception may be selectively activated by transmucosal electrical nerve stimulation, without disruption of the intrinsic myoelectrical rhythm. Hence, in 12 healthy subjects we measured perception (by a questionnaire) and jejunal slow wave activity (by electromyography), and we randomly applied for 1 min at 5-min intervals graded electrical (15 Hz, 100 microseconds) and mechanical stimuli (balloon distension) in the jejunum up to the respective discomfort threshold. Electrical and mechanical stimuli induced dose-related perception; the perception and discomfort thresholds were 39 +/- 7 and 63 +/- 6 mA and 31 +/- 3 and 49 +/- 5 ml for electrical and mechanical stimuli, respectively. More than one-half of electrical stimuli elicited clinical-type symptoms (abdominal pressure, fullness, colicky or sharp sensation) similar to those induced by mechanical stimuli; the remaining electrical stimuli (38 +/- 10%) induced paresthesia or flutterlike sensation. Similar types of symptoms were perceived with weak and strong stimuli. Jejunal slow wave activity (11.3 +/- 0.4 cycles/min) was not modified by either stimuli. We conclude that activation of intestinal sensory pathways, either by transmucosal nerve stimulation or via mechanoreceptors, induces a similar dose-related symptomatic response, without interfering with the intrinsic myoelectrical activity.